Insulated plastic bucket

ABSTRACT

A CONTAINER HAVING A WRAPPED SIDE WALL OF FOAM PLASTIC SHEET MATERIAL WITH THE SIDE MARGINS OVERLAPPED AND WELDED TOGETHER, AND A SEPARATELY FORMED BOTTOM HAVING A CENTRAL PORTION GENERALLY PERPENDICULAR TO THE CONTAINER AXIS AND WITH AN ANNULAR SKIRT EXTENDING AWAY FROM THE PLANE OF THE CENTRAL PORTION AND SEALED TO THE LOWER MARGIN OF THE SIDE WALL. A LID MADE OF THE SAME MATERIAL FITS OVER THE UPPER MARGIN OF THE CONTAINER.

May 23, 1972 G. D. M DANlEL INSULATED PLASTIC BUCKET 2 Sheets-Sheet Filed Nov. 24, 1969 FIG. 2

FIG. I

FIG. 4 38 w I I 0. 4 0

INVENTOR GENE D. Mac DANIEL BY ATTORNEYS May 23, 1972 G. 0. M DANIEL INSULATED PLASTIC BUCKET 2 Shee'ts-Sheefi 2 Filed NOV. 24, 1969 INVENTOR GENE D. Moo DANIEL BY FIG. IO

ATTORNEYS United States Patent Olhcc 3,664,568 Patented May 23, 1972 3,664,568 INSULATED PLASTIC BUCKET Gene D. MacDaniel, Lithonia, Ga., assignor to Sweetheart Plastics, Inc., Wilmington, Mass. Filed Nov. 24, 1969, Ser. No. 879,448 Int. Cl. B65d 3/00 U.S. Cl. 229-1.5 B 9 Claims ABSTRACT OF THE DISCLOSURE A container having a wrapped side wall of foam plastic sheet material with the side margins overlapped and welded together, and a separately formed bottom having a central portion generally perpendicular to the container axis and with an annular skirt extending away from the plane of the central portion and sealed to the lower margin of the side wall. A lid made of the same material fits over the upper margin of the container.

This invention relates to disposable containers and lids made of plastic, and more particularly comprises a new and improved insulated disposable container and lid made from foam plastic sheet. The invention has particular application in the manufacture of containers in the half gallon and larger range.

There is at the present time a growing demand for disposable containers in large sizes. This growth in part is the result of the rapidly growing business of franchised take-out food vendors such as the roadside fried chicken stands, as well as the generally increasing labor costs that make reusable containers in all industries prohibitively expensively. While in the disposable container industry plastic has captured a significant percentage of the market in smaller container sizes, thus far the larger containers of the one gallon size range are almost exclusively still made of paper. This is particularly true in the insulated bucket or tub field where heretofore no one has developed a commercially competitive insulated plastic tub. conventionally the large tubs used for example as chicken buckets are made of double wrap paper. These heavy duty double wrap paper buckets are expensive, have only limited insulating properties, and generally are subject to the same failings as paper food containers made in smaller sizes, namely, they have a taste and odor which effects the contents, they absorb moisture, etc.

An object of this invention is to provide a simply constructed tub made of foam plastic which has very high insulating properties.

Another object of this invention is to provide a disposable insulated container whose side walls may be embossed or otherwise treated as part of the assembling operation for decorative or advertising purposes.

Another object of this invention is to provide a large disposable tub which is moisture proof and grease proof and which is suitable for the packaging of hydroscopic materials.

Still another object of this invention is to provide a disposable insulated tub which is suitable for use as an ice bucket and whose mouth is sufficiently rigid to allow the bucket to be used as a scoop to gather ice cubes from a chest.

To accomplish those and other objects, this invention is embodied in a tub made of expanded foam plastic sheet. While the invention is not limited to containers of a particular size and has application to both large and small containers, in accordance with one embodiment typically the sheet may be approximately .112 inch thick and having a weight of approximately 19 grams per square foot. The container is made in two parts, namely, a side wall blank which is sealed along a side seam and a preformed bottom having a skirt which abuts against the bottom of the side wall and is sealed to it. A separate cover or lid may be provided, which has a snap fit over the mouth of the container, and the lid is provided with slits that enable vent openings to be formed in it.

In the drawings:

FIG. 1 is a vertical cross-sectional view of a tub constructed in accordance with this invention;

FIG. 2 is a vertical cross-sectional view of another embodiment of tub constructed in accordance with this invention;

FIG. 3 is a side view, partly in section, of a lid which may be used with either of the tubs shown in FIGS. 1 and 2;

FIG. 4 is a fragmentary, cross-sectional, detail of two tubs shown in FIG. 1 and illustrating their nested relationship;

FIG. 5 is a detail view of the rim of the tubs of FIGS. 1 and 2;

FIG. 6 is a fragmentary cross-sectional detail of the tub of FIG. 2 and showing how two such tubs nest;

FIG. 7 is a plan view of the lid of FIG. 3;

FIG. 8 is a fragmentary cross-sectional detail of the lid showing how a vent opening is formed in it;

FIG. 9 is an enlarged fragmentary cross-sectional view taken along the section line 9-9 of FIG. 1; and

FIG. 10 is an enlarged fragmentary detail view showing the way the lid fits on the container rim.

The bucket 10 shown in FIG. 1 has a side wall 12 and a bottom 14. The side wall 12 may be made from a blank having curved and parallel top and bottom edges of conventional form and with diverging side edges so that when the side wall is rolled into the container shape it is frustoconical with the desired side wall taper to facilitate nesting. In accordance with one embodiment the side wall 10 along with the bottom 14 are made from generally rigid expanded styrene sheet of approximately .112 inch in thickness and weighing 19 gram per sq. ft. with a cell size of 4 to 5 mils. It is to be understood that these dimensions are not limitations to the scope of this invention.

The side edges 16 and 18 of the side wall 12 are overlapped as shown in FIG. 9, compressed, and sealed together to form a liquid tight seam running from top to bottom of the side wall when it is formed. The total thickness of the overlapped portion 20 of the side wall is less than twice the stock thickness and preferably does not exceed substantially the single stock thickness of the material.

The bottom 14 of the container is preshaped before assembly with a generally flat central portion 22 and a skirt 24 which extends downwardly from the central portion 22 generally with a downward flare of approximately 3. The flare of the skirt is in part determined by the angle of the side wall 12. The outer diameter of the skirt 24 at the bottom edge 26 is equal to or slightly larger than the inner diameter of the bottom edge 28 of the side wall 12 so that when the bottom is assembled as shown in FIGS: 1 and 4 the outer surface of the skirt 24 at its lower edge 26 engages the inner surface of the lower margin 28 of the side wall. This relationship is particularly evident in FIG. 4 where the bottoms of two containers are shown in their nested relationship.

When the bottom 14 is assembled in the side wall 12, the lower edges are heat sealed together in a manner shown in FIG. 4, and the mating surfaces of the skirt and lower margin of the side wall fuse through a height of approximately inch. From that point, the skirt and side wall diverge in an upward direction to form a well 30 which is particularly desirable as a grease trough when buckets are used to contain fried foods such as chicken.

In a one gallon tube size, typically the height of the skirt 24 measured from its lower margin to the upper surface of the central portion 22 is approximately inch, and the trough 30 therefore has a height of approximately inch. Its volume is of course also a function of the taper of sidewall 12. Typically it may be 12. Thus the trough has substantial volume to accommodate grease or other substances which are given off from the material packaged in the tub.

To enhance the appearance of the tub, broaden its applications, and increase its stiffness at the mouth 32, the rim 34 is turned over as shown in FIG. to form a semi-rolled lip and preferably the material of the rim is somewhat expanded so as to increase its stiffness. The application of heat to the sheet material when the rim is rolled to form the configuration illustrated may be utilized to expand the sheet material to the desired thickness.

The embodiment of FIG. 1 nests as shown in FIG. 4 on the bottom 14. The inner corner 38 of the lower edge 26 of the skirt of the upper container rests on the outer radius 40 which joins the skirt 24 to the central portion 22 of the bottom. When the container is made in the dimensions suggested above, the pitch or stack height may be approximately inch, and the side walls of adjacent containers will be held apart slightly and the rims of adjacent containers will be separated sufficiently to allow for ready separation of the containers.

The container 50 shown in FIG. 2 differs from the container of FIG. 1 in the construction of the bottom. Thus, the container 50 has a side wall 52 with a semirolled rim 54 identical to that of FIG. 1, but the bottom 56 is distinctive. The bottom includes a generally horizontal central portion 58 which may or may not be bowed upwardly as shown in the drawing to resist sagging, and the bottom also includes a peripheral skirt 60 which extends upwardly from the margin of the central portion 58. The skirt 60 is upwardly flared so that it forms the same angle with the vertical as does side wall 52. Typically this flare may be an angle of 12.

In FIG. 6, the details of the connection between the skirt 60 and side wall 52 are shown. In that embodiment, the bottom 56 is preshaped in the form shown in FIGS. 2 and 6, and the axial extent of the skirt 60 is substantially the same as the skirt 24 in the embodiment of FIG. 1. The skirt 60 is heat sealed to the inner side of the side wall 52 of the container, and the bottom 62 of the side wall is wrapped about the radius 64 which joints the skirt 60 and the wall 58 so as to form a smooth juncture between the side wall of the container and the bottom. The lower edge 62 of the side wall where it wraps about the radius 64 is compressed so as to form a smooth union between the outer surface 66 of the side wall and the lower surface 68 of the bottom 58.

When the containers of the type shown in FIGS. 2 and 6 are nested, the outer surface of the bottom 62 of the side wall 52 rests on the upper inner edge 70 of the skirt 60, and the cups are thereby spaced apart a distance substantially equal to the distance (pitch) of the stacked containers of the type shown in FIG. 1.

The lid shown in FIGS. 3 and 7 to is made of the same material and has substantially the same stock thickness as the containers of FIGS. 1 and 2. The container lid 100 includes a top wall 102 and a downwardly extending skirt 104. The skirt 104 is provided with an undercut ring 106 accentuated on its inner surface 108, which is adapted to engage the lower end 110 of the rolled rim 34 of the container so as to retain the lid in place over the container mouth, as illustrated in FIG. 10. The underside of the lid, in the juncture of the central portion and the skirt is contoured to mate snugly with a portion of the cross-section of the rolled rim 34 of the container. The lid is provided with four upstanding bosses 112 in the top wall 102, which serve several functions. The outer edges 114 of the bosses 112 are each curved as is clearly shown in FIG. 7 so as to substantially define a circle. The bosses are adapted to fit within the skirt 24 of a container bottom stacked above it and retain that upper container in place. That is, the curved sides 114 of the bosses will prevent the upper container from slipping sideways on the top.

Preferably at least two of the bosses 112 are provided with a diagonal cut 116 which allows a portion of the bosses containing it to be bent inwardly as shown in FIG. 8 to form a vent opening 118. That is, the cut 116 forms a flap 120 in the top wall of the boss, which flap may be bent downwardly as shown in FIG. 8 to open the top of the boss. It will be appreciated that when the flap 120 is left in the formed position as in FIG. 3, the lid forms a seal for the container, but when the flaps are folded downwardly as suggested in FIG. 8, the interior of the container is vented. Even when the flaps are bent so as to form the vent openings 118, they do not interfere with the container which is stacked above when in fact several containers are placed one above the other.

The vent openings 118 are of sufficient size so that the fingers may be inserted through them so as to provide a convenient handle to carry the bucket. Thus the vent openings not only perform their main function of venting the contents of the container but also form a handle for the convenient carrying of the package made up of the container and lid.-

From the foregoing description the containers and lid of this invention will be appreciated to have many advantages over prior art containers. The containers may have any cross sectional shape as the bottoms are preshaped and the entire container is made of plastic. The preshaped bottom may be either formed by thermoforming techniques such as pressure or vacuum forming, or it may be shaped by matched molds which work on the sheet. Because of the nature of the material used, both the bottom and top may be heat sealed. Thus the bosses 112 provided in the container lids not only facilitate stacking of filled containers, but they further facilitate stacking of the lids themselves. When the empty lids are stacked one on top of the other, the bosses 112 will cooperate with the skirts 104 to retard accidental slicing" of the lids horizontally from a stack. The openings in the bosses provided by the slits form not only vents but gripping means as Well. Moreover, it is apparent that the vent sizes may be varied by changing the angle of the bent flaps. In fact the vent flaps may be bent up or down, or even be torn off if desired. The vents are particularly desirable when the containers are used for chicken or other hot foods to allow the steam given off by the food products to escape. In this way the contents are kept relatively dry as the steam given off by the food will not tend to make the contents soggy. It will also be appreciated that the bosses 112 allow the slits to be formed horizontally in them by a horizontal blade as the lids are moved horizontally below it. Similarly, the lid may be trimmed from its web by a horizontal blade, and the arrangement may be used for lids of different diameters with altering the arrangement.

The grease trough provided in the embodiment of FIG. 1 further allows the contents to drain so that the food itself does not stand in the grease which drains from it. Because of the nature of the material from which the container is made, it will be apparent that the side wall material may be selectively expanded so as to provide raised or embossed lettering in the side wall for advertising for decorative purposes. A bucket formed of the material identified is moisture proof and grease proof and is suitable for storing hydroscopic materials. The relatively stiff rim allows the container to scoop hard materials such as ice without becoming mutilated.

While the containers are suitable for use with the lid of FIG. 3, it will be appreciated that inside fitting lids could also be used with them. Moreover, the foam material may be combined with other materials such as an open web-like fabric or a film for added strength or texture.

What is claimed is:

1. A container comprising:

a wrapped side wall made from generally rigid foam sheet material having a lapped side seam, defining openings at opposite ends thereof;

a preshaped bottom wall made from generally rigid foam sheet material, said bottom wall having its central portion lying generally perpendicular to the axis of the side wall and an annular skirt extending away from the general plane of the central portion, said skirt defining an outer diameter slightly less than the inner diameter of one of said openings in said container whereby said bottom wall may be fitted snugly into said opening;

and a heat-sealed seam joining the skirt to said one end of the side wall.

2. A container as described in claim 1 further characterized by said side wall being frustoconical in shape and narrower at the bottom edge and said skirt being frustoconical in shape and being wider at the bottom and with the upper edge of the skirt joining the central portion,

said heat-sealed seam joining only the lower portion of the skirt and the bottom margin of the side wall and with the side wall and skirt diverging from one another in an upwardly direction.

3. A container as described in claim 1 further characterized by said side wall being turned over at the upper edge to lend lateral stillness to the container.

4. A container as described in claim 1 further characterized by said lapped seam being formed by overlapping the edges of the blank from which the side wall is made and welding together the overlapped margins, the thickness of the side wall at the overlapped edges being substantially less than twice the thickness of the side wall material.

*5. A container as described in claim 1 further characterized by said bottom skirt extending upwardly from the central portions and lying flush against the side wall,

the lower margin of the side wall being turned inwardly beneath the periphery of the central portion of the bottom with said margins being sealed to the bottom.

6. A container as described in claim 5 further characterized by said lapped seam being formed by overlapping the edges of the blank from which the side wall is made and welding together the overlapped margins, the thickness of the side wall at the overlapped edges being substantially less than twice the thickness of the side wall material. 7. A container as described in claim 6 further characterized by said side Wall be frustoconical in shape and narrower at the bottom edge and said skirt being frustoconical in shape and being wider at the bottom and with the upper edge of the skirt joining the central portion, said heat-sealed seam joining only the lower portion of the skirt and the bottom margin of the side wall and with the side wall and skirt diverging from one another in an upwardly direction. 8. A container as described in claim 6 further characterized by said side wall and bottom having an approximate stock thickness of 0.110 inch. '9. A container as described in claim 8 further characterized by References Cited UNITED STATES PATENTS 5/1961 Harrison J 229-1.5 B 10/;1960 Bennett 2l29--43 9/1965 Fead et a1. 229-43 X 6/1968 Davis 229-43 9/ 19 69 Amberg 2-291.5 B 9/1970 Tifiin et a1. 2291.5 BX 2/1970 Davis 22097 C GEORGE T. HALL, Primary Examiner US. Cl. X.R. 22097 C 

